Mobile terminal having touch screen and method for displaying cursor thereof

ABSTRACT

A portable terminal including a touch screen and method for displaying a cursor thereof are provided. The method includes determining whether a capacitance is equal to or greater than a first critical value and is less than a second critical value, if the change of the capacitance is sensed in the touch screen, displaying a cursor in an area where the change of the capacitance is sensed, if the capacitance is equal to or greater than the first critical value and is less than the second critical value, and performing a function corresponding to the area where the cursor is displayed, if the capacitance sensed in the area where the cursor is displayed is equal to or greater than the second critical value.

PRIORITY

This application claims the benefit under 35 U.S.C. §119(a) of a Koreanpatent application filed in the Korean Intellectual Property Office onJul. 28, 2008 and assigned Serial No. 10-2008-0073653, the entiredisclosure of which is hereby incorporated by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a portable terminal including a touchscreen and a method for displaying a cursor thereof. More particularly,the present invention relates to a portable terminal having a capacitiveoverlay type touch screen and a method for displaying a cursor accordingto a touch sensed in the portable terminal.

2. Description of the Related Art

A touch screen has an advantage in that an input unit and a display unitcan be implemented through one apparatus, and the touch screen can bemounted on a small terminal, such as a portable terminal. Touch screensmounted on the portable terminal include a capacitive overlay type, aresistive overlay type, a surface acoustic wave type, a transmitter typeand an infrared beam type. Among the various types of touch screens, thecapacitive overlay type touch screen is commonly used for portableterminals.

The capacitive overlay type touch screen can detect an area where touchoccurs through the change of capacitance which is generated when anobject that is conductive, such as the body of a user or a stylusincluding a dielectric substance, comes into contact with the touchscreen. The change of capacitance is in proportion to dimensions of theobject that contacts the touch screen. Therefore, as the dimensions ofthe object which is sensed in the touch screen is increased, the areawhere the touch is sensed can be more accurately.

However, since the size of the touch screen is limited, a smallterminal, such as the portable terminal, has a problem in that a usercan misrecognize the area touched by the object in the capacitiveoverlay type touch screen as another area. Accordingly the portableterminal displays an undesired icon or location or the portable terminalmalfunctions.

Therefore, a need exists for a portable terminal and a method foraccurately determining an area touched on a capacitive overlay typetouch screen of the portable terminal.

SUMMARY OF THE INVENTION

An aspect of the present invention is to address at least theabove-mentioned problems and/or disadvantages and to provide at leastthe advantages described below. Accordingly, an aspect of the presentinvention is to provide a portable terminal including a capacitiveoverlay type touch screen and a method for displaying a cursor in theportable terminal.

In accordance with an aspect of the present invention, a method fordisplaying a cursor of a portable terminal including a capacitiveoverlay type touch screen is provided. The method includes determiningwhether a capacitance is equal to or greater than a first critical valueand is less than a second critical value, if the change of thecapacitance is sensed in the touch screen, displaying a cursor in anarea where the change of the capacitance is sensed, if the capacitanceis equal to or greater than the first critical value, and is less thanthe second critical value, and performing a function corresponding tothe area where the cursor is displayed, if the capacitance sensed in thearea where the cursor is displayed is equal to or greater than thesecond critical value.

In accordance with another aspect of the present invention, a portableterminal is provided. The portable terminal includes a touch screenincluding a touch sensor for sensing a change of capacitance, a displayunit for displaying a cursor corresponding to the sensed capacitance, astorage for storing a first critical value and a second critical valuefor displaying the cursor corresponding to the capacitance, and acontroller for determining whether the capacitance is equal to orgreater than the first critical value and is less than the secondcritical value if the change of the capacitance is sensed in the touchscreen, for controlling the touch screen to display the cursor in anarea where the change of the capacitance is sensed if the capacitance isequal to or greater than the first critical value and is less than thesecond critical value, for determining whether the capacitance sensed inthe area where the cursor is displayed is equal to or greater than thesecond critical value stored in the storage, and for performing afunction corresponding to the area where the cursor is displayed.

Other aspects, advantages, and salient features of the invention willbecome apparent to those skilled in the art from the following detaileddescription, which, taken in conjunction with the annexed drawings,discloses exemplary embodiments of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other aspects, features and advantages of certainexemplary embodiments of the present invention will be more apparentfrom the following description taken in conjunction with theaccompanying drawings, in which:

FIG. 1 is a block diagram illustrating a schematic configuration of aportable terminal according to an exemplary embodiment of the presentinvention;

FIGS. 2A and 2B are graphs illustrating a change of capacitance of atouch screen according to an exemplary embodiment of the presentinvention;

FIG. 3 is a flowchart illustrating a method for displaying a cursoraccording to an exemplary embodiment of the present invention; and

FIG. 4 is an exemplary view of a screen displaying a cursor on a touchscreen according to an exemplary embodiment the present invention.

Throughout the drawings, it should be noted that like reference numbersare used to depict the same or similar elements, features and structures

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

The following description with reference to the accompanying drawings isprovided to assist in a comprehensive understanding of exemplaryembodiments of the invention as defined by the claims and theirequivalents. It includes various specific details to assist in thatunderstanding but these are to be regarded as merely exemplary.Accordingly, those of ordinary skill in the art will recognize thatvarious changes and modifications of the embodiments described hereincan be made without departing from the scope and spirit of theinvention. In addition, descriptions of well-known functions andconstructions are omitted for clarity and conciseness.

The terms and words used in the following description and claims are notlimited to the bibliographical meanings, but, are merely used by theinventor to enable a clear and consistent understanding of theinvention. Accordingly, it should be apparent to those skilled in theart that the following description of exemplary embodiments of thepresent invention are provided for illustration purpose only and not forthe purpose of limiting the invention as defined by the appended claimsand their equivalents.

It is to be understood that the singular forms “a,” “an,” and “the”include plural referents unless the context clearly dictates otherwise.Thus, for example, reference to “a component surface” includes referenceto one or more of such surfaces.

FIG. 1 is a block diagram illustrating a schematic configuration of aportable terminal according to an exemplary embodiment of the presentinvention. FIGS. 2A and 2B are graphs illustrating a change ofcapacitance of a touch screen according to an exemplary embodiment ofthe present invention.

Referring to FIG. 1, the portable terminal includes a touch screen 110,a controller 120 and a storage unit 130. The touch screen 110 includes adisplay unit 115 and a touch sensor 117. The display unit 115 maydisplay various data related to a state and an operation of the portableterminal. More particularly, if the display unit 115, under control ofthe controller 120, senses access to the touch screen 110 by an object,a cursor may be displayed in an area accessed where the object issensed.

Accordingly, the user may confirm the area selected through the cursordisplayed on the display unit 115. Here, the cursor may be displayedwith a type of highlight or a type of block. According to a change ofcapacitance which is sensed in the given area of the touch screen 110under the control of the controller 120, the display unit 115 maydisplay the cursor as a dark or light color or the size of the cursor aslarge or small.

The touch sensor 117 may be mounted on the display unit 115. The displayunit 115 may sense the touch generated by the access by the object orcontact and canceled contact by the object. The touch sensor 117determines a coordinate of the area in which the access by the object orcontact and canceled contact by the object is sensed, and transmits thedetected coordinate to the controller 120. Here, the touch sensor 117may sense the capacitance which changes according to the access by theobject or contact and canceled contact by the object sensed on the touchscreen 110.

The touch screen 110 using the touch sensor 117 may recognize the areain which the touch is sensed through the change of the capacitance whichis generated when the object having conductivity, such as the finger ofthe user, contacts the touch screen 110 coated with a conductivematerial. As a result, the value of the capacitance increases as theobject having conductivity approaches the touch screen 110 and as thearea contacted on the touch screen 110 has widened.

Referring to FIGS. 2A and 2B, if an object, such as the finger of theuser, approaches the touch screen 110, the capacitance gradually beginsto increase as illustrated in the graph in FIG. 2A. If the objectcontacts the touch screen 110, the capacitance has a maximum value asillustrated in the graph in FIG. 2B. The touch sensor 117 mounted on thecapacitive overlay type touch screen 110 may transmit informationcorresponding to the capacitance, which changes according to the accessby the object or contact and canceled contact by the object, to thecontroller 120 to confirm the area in which the access by the object orcontact and canceled contact by the object is sensed.

The controller 120 controls the state and the operation of the overallconfigurations of the portable terminal. More particularly, thecontroller 120 determines whether the information corresponding to thecapacitance received from the touch screen 110 is included in a criticalvalue stored in the storage unit 130, and may confirm the area in whichthe access by the object or contact and canceled contact by the objectis sensed.

A peak compare method and a frequency conversion method may be used forthe controller 120 to determine an area in which the access by theobject or contact and canceled contact by the object is sensed accordingto the change of capacitance. In the peak compare method, the peak,which is a maximum demand voltage, reduces when the capacitanceincreases due to the contact by the object having conductivity, such asthe finger of the user or a stylus, on the touch screen 110. In thefrequency conversion method, the frequency is decreased when thecapacitance increases due to the contact by the object havingconductivity on the touch screen 110.

In other words, the controller 120 confirms the peak or the frequencywhich changes according to the capacitance, and may sense the access bythe object or contact and canceled contact by the object on the touchscreen 110. Moreover, the controller 120 may determine the area in whichthe access by the object or contact and canceled contact by the objectis sensed through the peak or the frequency which changes according tothe capacitance. In an exemplary implementation, by using the change ofthe capacitance, the controller 120 may display the cursor in the areain which the access by the object or contact and canceled contact by theobject is sensed.

More specifically, the controller 120 may display the cursor in the areain which the capacitance is confirmed by comparing the confirmedcapacitance and the critical value stored in the storage unit 130. Atthis time, the critical value stored in the storage 130 may beclassified into a plurality of critical values, for example, a firstcritical value and a second critical value. The first critical value isa reference value which displays the cursor in the area where the accessby the object is sensed on the touch screen 110, and the second criticalvalue is a reference value which confirms the contact by the object withthe touch screen 110.

Thus, the controller 120 may display the cursor in the area in which thecapacitance is confirmed. That is, the controller 120 may display thecursor in the area accessed in which the object is sensed on the touchscreen 110 when the confirmed capacitance is equal to or greater thanthe first critical value, and is less than the second critical value.The controller 120 confirms the capacitance in the area in which thecursor is displayed and determines whether the confirmed capacitance isequal to or greater than the second critical value. If the capacitanceis equal to or greater than the second critical value, the controller120 may perform a function mapped in the area in which the cursor isdisplayed. At this time, the first critical value and the secondcritical value may be set by a manufacturer of the portable terminal ormay be set by the user.

In an exemplary implementation, the first critical value and the secondcritical value, as described in an exemplary embodiment of the presentinvention, are set by the user. If the user selects a setup mode througha menu or a function key to set the first critical value and the secondcritical value, the controller 120 displays a screen which indicates acursor setup mode on the touch screen 110. At this time, the controller120 displays a first sensing window which may set the first criticalvalue and a second sensing window which may set the second criticalvalue.

The controller 120 confirms the capacitance which changed according tothe access by the object to the first sensing window, and displays thecursor in the area in which the change of the capacitance is sensed. Thecontroller 120 confirms the capacitance which changes according to theaccess of by the object. Here, if the access by the object is sensed inthe first sensing window, the controller 120 displays the cursor in thearea in which the access by the object is sensed in the first sensingwindow. The controller 120 may display a message, such as ‘move fingeror stylus near touch screen 110’ on the display unit 115 with a pop upmessage or an overlay type message. Accordingly, the user may recognizethat an object, such as the finger or the stylus, should not havecontact with the first sensing window displayed on the touch screen 110.

The controller 120 then confirms whether the contact by the object issensed in the second sensing window and confirms the capacitance changedaccording to the contact by the confirmed object. In this case, thecontroller 120 may display a message, such as ‘contact finger or stylusto touch screen 110’ on the display unit 115 with the pop up message orthe overlay type message. Based on the message displayed, the user mayrecognize that the object has to have contact with the second sensingwindow displayed on the touch screen 110.

If the capacitance is confirmed, the controller 120 determines whetherthe storing of a value corresponding to the capacitance is selectedthrough the touch screen 110. If the storing of the capacitance value isselected, the controller 120 may store the capacitance value confirmedin the first sensing window and the second sensing window in the storageunit 130 with the first critical value and the second critical value.Here, a method implemented by the controller 120 determines whether anobject has contact with the touch screen 110 is described below.

An assumption is made herein that a maximum capacitance which may beconfirmed in the capacitive overlay type touch screen 110 is preset inthe storage unit 130. The controller 120 confirms the capacitance whichis generated when the object has contact with the touch screen 110. Thecontroller 120 determines whether the confirmed capacitance has a valuewhich is close to the preset capacitance. If the confirmed capacitancehas a value which is close to the preset capacitance, the controller 120may determine that the object has contact with the touch screen 110. Thestorage unit 130 stores various applications which are necessary whenthe portable terminal performs functions and various data which isgenerated while functions are performed in the portable terminal. Moreparticularly, the storage unit 130 stores the first critical value andthe second critical value which is set to sense the contact by theobject in the capacitive overlay type touch screen 110. Here, the firstcritical value is a reference value for displaying the cursor in thearea in which the access by the object is sensed, and the secondcritical value is a reference value for confirming the contact by theobject in the touch screen 110.

Although not illustrated in the drawings, the portable terminal mayfurther include various configurations according to the functions whichmay be performed in the portable terminal, such as a communications unitwhich performs a communication function between the portable terminaland a base station, a camera unit which takes a picture of images, aDigital Multimedia Broadcasting (DMB) receiver which receives a digitalbroadcasting signal, an internet receiver which performs an internetfunction by communicating with an internet network, and the like. In anexemplary implementation, if the access by the object is sensed throughthe touch screen 110 of the portable terminal, the controller 120determines whether the capacitance changing according to the access bythe object is equal to or greater than the first critical value, and isless than the second critical value.

If the changed capacitance is equal to or greater than the firstcritical value, and is less than the second critical value, thecontroller 120 displays the cursor in the area in which the access bythe object is sensed by controlling the touch screen 110. Moreover, ifthe contact by the object is sensed, the controller 120 determineswhether the capacitance which changes according to the contact by theobject is equal to or greater than the second critical value. If thechanged capacitance is equal to or greater than the second criticalvalue, the controller 120 confirms the function mapped in the area inwhich the contact by the object is sensed and may perform the confirmedfunction. The method implemented by the controller 120 for displayingthe cursor according to the access by the object, contact and canceledcontact by the object is illustrated with reference to FIG. 3.

FIG. 3 is a flowchart illustrating a method for displaying a cursoraccording to an exemplary embodiment of the present invention. FIG. 4 isan exemplary view of a screen displaying a cursor on a touch screenaccording to an exemplary embodiment of the present invention.

Referring to FIG. 3, the controller 120 displays a screen correspondingto a mode performed in the portable terminal on the touch screen 110 instep 310. Here, the mode operated in the portable terminal denotes allmodes that may be operated in the portable terminal, such as a standbymode, a game mode, a short message writing mode, and the like. Thecontroller 120 then determines whether a change of capacitance is sensedthrough the touch screen 110 in step 315.

For example, the controller 120 determines whether access by an objectof a user for selecting a given area on the touch screen 110 is sensed.If the object approaches the touch screen 110, the controller 120 sensesthe capacitance which changes according to the access by the objectthrough the touch screen 110. The controller 120 then confirms thechanged capacitance and the area in which the change of the capacitanceis sensed in the touch screen 110 in step 320. The controller 120compares the confirmed capacitance with a first critical value stored inthe storage unit 130, and determines whether the confirmed capacitanceis equal to or greater than the first critical value in step 325.

At this time, the controller 120 may confirm whether the confirmedcapacitance is equal to or greater than the first critical value, aswell as whether the confirmed capacity is less than a second criticalvalue. If the confirmed capacitance is equal to or greater than thesecond critical value, the controller 120 may determine the contact bythe object, since the second critical value is set to sense the contactby the object.

Accordingly, the controller 120 may determine that the confirmedcapacitance is equal to or greater than the first critical value andless than the second critical value. If the confirmed capacitance isless than the set first critical value, the controller 120 returns tostep 315 and determines whether the change of the capacitance is sensed.If the confirmed capacity is equal to or greater than the set firstcritical value, the controller 120, as illustrated in FIG. 4, displaysthe cursor in the area in which the capacitance is sensed in step 330.

More specifically, an assumption is made herein that the first criticalvalue is stored with 5 μF, and the second critical value is stored with9 μF. If the object approaches the touch screen 110, the controller 120confirms the change of the capacitance through the touch screen 110. Ifthe changed capacitance is 6 μF, the confirmed capacitance is 5 μF orgreater than 5 μF, which is the set first critical value, and less than8 μF, which is the second critical value, so that the controller 120, asillustrated in FIG. 4, may display the cursor in the area in which thechange of the capacitance is sensed. For example, an assumption is madeherein that the touch screen 110, as illustrated in FIG. 4, displays awebsite in an internet mode under the control of the controller 120. Ifthe user moves the object, such as the finger of the user or the stylus,close to the touch screen 110 to select contents in the website whichare displayed, the controller 120 senses the change of capacitance dueto the access by the object and confirms the area in which thecapacitance is sensed.

The controller 120 confirms the changed capacitance, and determineswhether the confirmed capacitance is equal to or greater than the firstcritical value, and is less than the second critical value. If theconfirmed capacitance is equal to or greater than the first criticalvalue, and is less than the second critical value, the controller 120may display a block type cursor in the area in which the change of thecapacitance is sensed. In other words, as illustrated in FIG. 4, in thetouch screen 110, the block type cursor may be displayed in the area towhich the finger of the user is approaching.

In an exemplary implementation, the controller 120 displays the blocktype cursor in the area in which the change of the capacitance issensed. However, the present invention is not limited thereto. The areain which the change of the capacitance is sensed may be displayed with ahighlight. The controller 120 may enlarge and display the content (forexample, a character, an image, an icon, and the like) displayed in thearea in which the change of the capacitance is sensed. Accordingly, whenthe object, such as the finger of the user, approaches the touch screen110 and the object moves, the controller 120 may enlarge and display thecontent displayed in the area in which the change of the capacitance issensed according to the movement of the object.

Moreover, the controller 120 displays a colored cursor displayed in thearea in which the change of the capacitance is sensed according to avariation of the capacitance to be darker or lighter than the originalcolor of the contents displayed on the touch screen 110. For example, ifthe capacitance sensed through the touch screen 110 is 1 μF, thecontroller 120 displays the color of the cursor displayed in the area inwhich the change of the capacitance is sensed. If the sensed capacitanceis increased, the controller 120 may display the color of the cursordisplayed in the area in which the change of the capacitance is sensed.Then, if the sensed capacitance is decreased, the controller 120 maydisplay the color of the cursor displayed in the area in which thechange of the capacitance is sensed to be light according to the reducedcapacitance.

Otherwise, the controller 120 may enlarge or reduce to display togetherthe cursor displayed in the area in which the change of the capacitanceis sensed according to the variation of the capacitance and the contentdisplayed in the area in which the change of the capacitance is sensed.For example, if the sensed capacitance is 1 μF, the controller 120 maydisplay the cursor and content displayed in the area in which the changeof the capacitance is sensed, with the originally displayed size. Also,if the sensed capacitance is increased, the controller 120 may displaythe cursor and content displayed in the area in which the change of thecapacitance is sensed to be greater than the originally displayed sizeaccording to the increased capacitance. Then, if the sensed capacitanceis decreased, the controller 120 may display the cursor and contentdisplayed in the area in which the change of the capacitance is sensedwith the originally displayed size according to the decreasedcapacitance.

Accordingly, by displaying the color and size of the cursor differentlyaccording to the variation of the capacitance, the user may recognizethe distance from which the object, such as, the finger of the user orthe stylus, approaches the touch screen 110. The controller 120displaying the cursor in the area in which the changed capacitance issensed according to the access by the object determines whether thecapacitance sensed in the area in which the cursor is displayed is equalto or greater than the second critical value in step 335.

In other words, if the object, such as the finger of the user or thestylus, has contact with the touch screen 110 to select the area inwhich the cursor is displayed, the controller 120 confirms thecapacitance changed from the contact by the object through the touchscreen 110. The controller 120 compares the confirmed capacitance withthe second critical value stored in the storage unit 130 and determineswhether the confirmed capacitance is equal to or greater than the secondcritical value. For example, if the second critical value is set to 15μF, the controller 120 determines whether the value of the capacitancesensed in the area in which the cursor is displayed through the touchscreen 110 is 15 μF or greater than 15 μF. If the capacitance is equalto or greater than the second critical value, the controller 120confirms the function corresponding to the area in which the cursor isdisplayed in step 340.

If the capacitance is confirmed to be equal to or greater than thesecond critical value, the object, such as the finger of the user or thestylus, has contact with a select area of the touch screen 110.Accordingly, if the capacitance is equal to or greater than the secondcritical value, the controller 120 confirms the function mapped in thearea in which the change of the capacitance is sensed. That is, thecontroller 120 confirms the function mapped in the area in which thecursor is displayed. On the other hand, if the capacitance is not equalto or greater than the second critical value, the controller 120performs step 315 again. The controller 120 confirming the functioncorresponding to the area in which the cursor is displayed determineswhether the contact is canceled in step 345.

In the method for determining whether the contact is canceled, thecontroller 120 compares the capacitance with the first critical valueand may determine that the contact is canceled when the capacitance isless than the first critical value. Moreover, the controller 120 maydetermine that the object that has contact with the touch screen 110 isreleased as the capacitance draws near 0μF. If the contact is notcanceled, the controller 120 returns to step 335. However, if thecontact is canceled, the controller 120 performs the functioncorresponding to the area in which the cursor is displayed in step 350.

Here, the function which may be performed includes all the functionswhich may be performed in all modes of the portable terminal. Forexample, if the mode of the portable terminal includes a menu selectionmode, the selected menu may be displayed. If the mode of the portableterminal is a Moving Picture Expert Group Layer-3 (MP3) play mode, aselected MP3 file may be played. Also, if the mode of the portableterminal is a short message writing mode, the controller 120 may displaya character corresponding to the area in which the cursor is displayedon the touch screen 110. Further, if the mode of the portable terminalis an internet mode, the controller 120 connects to the websitecorresponding to the content corresponding to the area in which thecursor is displayed and may display the connected website on the touchscreen 110.

In an exemplary implementation, if the access by the object, such as thefinger of the user, is sensed in the touch screen 110 which is includedin the portable terminal, the controller 120 confirms the capacitancewhich changes according to the access by the object, and may display thecursor in the area in which the change of the capacitance is sensedaccording to the confirmed capacitance. Based on the cursor which isdisplayed, the user may confirm the area touched on the touch screen110.

While the invention has been shown and described with reference tocertain exemplary embodiments thereof, it will be understood by thoseskilled in the art that various changes in form and details may be madetherein without departing from the spirit and scope of the invention asdefined by the appended claims and their equivalents.

What is claimed is:
 1. A method for displaying a cursor of a portableterminal comprising a capacitive overlay type touch screen, the methodcomprising: detecting one of access by an object on a touch screen andcontact by the object with the touch screen; determining whether a valueof change of capacitance is one of equal to a first threshold andgreater than the first threshold, and is less than a second threshold;displaying a cursor in an area where the change of the capacitance isdetected, if the value of the change of capacitance is one of equal tothe first threshold and greater than the first threshold, and is lessthan the second threshold; and performing a function corresponding tothe area where the cursor is displayed, if the value of the change ofcapacitance detected in the area where the cursor is displayed is one ofequal to the second threshold and greater than the second threshold. 2.The method of claim 1, wherein the first threshold comprises a referencevalue for displaying the cursor in the area where the access of theobject is detected on the touch screen.
 3. The method of claim 1,wherein the second threshold comprises a reference value for confirmingthe contact of the object with the touch screen.
 4. The method of claim1, wherein the displaying of the cursor comprises displaying a blocktype cursor in the area where the change of the capacitance is detected.5. The method of claim 4, wherein the displaying of the cursor comprisesdisplaying a colored cursor, if the value of the chanage of capacitanceincreases or decreases.
 6. The method of claim 5, wherein the displayingof the colored cursor comprises displaying a dark color cursor or alight color cursor corresponding to the increase or the decrease of thevalue of change of capacitance.
 7. The method of claim 4, wherein thedisplaying of the cursor comprises displaying a changed size of thecursor, if the value of the change of capacitance increases ordecreases.
 8. The method of claim 7, wherein the displaying of thechanged size of the cursor comprises displaying a larger size cursorthan an original size cursor or a smaller size cursor than the originalsize cursor corresponding to the increase or the decrease of the valueof the change of capacitance.
 9. A portable terminal comprising: a touchscreen comprising a touch sensor for detecting one of access by anobject on a touch screen and contact by the object with the touchscreen, and for displaying a cursor corresponding to a value of thechange of capacitance; a storage unit for storing a first threshold anda second threshold for displaying the cursor corresponding to the valueof the change of capacitance; and a controller for determining, when thechange of the capacitance is detected through the touch sensor, whetherthe value of the change of capacitance is one of equal to the firstthreshold and greater than the first threshold, and is less than thesecond threshold, for controlling the touch screen to display the cursorin an area where the change of the capacitance is detected if thecapacitance is one of equal to the first threshold and greater than thefirst threshold, and is less than the second threshold, and forperforming a function corresponding to the area where the cursor isdisplayed, if the value of the change of capacitance detected in thearea where the cursor is displayed is one of equal to the secondthreshold and greater than the second threshold.
 10. The portableterminal of claim 9, wherein the first threshold comprises a referencevalue for displaying the cursor in the area where the access of theobject is detected on the touch screen.
 11. The portable terminal ofclaim 9, wherein the second threshold comprises a reference value forconfirming the contact of the object with the touch screen.
 12. Theportable terminal of claim 9, wherein the controller controls the touchscreen to display a block type cursor in the area where the change ofthe capacitance is detected.
 13. The portable terminal of claim 12,wherein the controller controls the touch screen to display a coloredcursor, if the value of the change of capacitance increases ordecreases.
 14. The portable terminal of claim 13, wherein the controllercontrols the touch screen to display a dark color cursor or a lightcolor cursor corresponding to the increase or the decrease of the valueof the change of capacitance.
 15. The portable terminal of claim 12,wherein the controller controls the touch screen to display a changedsize of the cursor, if the value of the change of capacitance increasesor decreases.
 16. The portable terminal of claim 15, wherein thecontroller controls the touch screen to display a larger size cursorthan an original size cursor or a smaller size cursor than the originalsize cursor corresponding to the increase or the decrease of the valueof the change of capacitance.